MC11g1213 (gene) Bitter gourd (Dali-11) v1
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Overview
Sequences
The following sequences are available for this feature:
Legend: utr5CDSpolypeptideutr3 Hold the cursor over a type above to highlight its positions in the sequence below.GTTTATTTTTAATTTGTTTTCAGTACCGTAAATATAAGTTTAGAAGTGAGAAAATACGCTGCGAGGATAGAGTCAAGTTTTCAGCATGACTCGAGACTTTTATCAAAATATCATGTGGACTATTAATCCGTCGGTTTGAAATTCCCGTCACTTTCTCTTCCAGTTCAAGTCTGCATTTAAAAGCAGAGAAAACTTTCAAATGTTCTTCACAATCGATCTCAATTCAAACCTCAGTTCGTACAATTCTCCGTTGATGAACGCGATTGATTTCTTCCGCTGATTTGTGTGAGTTATTTTCATCTCTTCCTCTTTGCTTGATCTGTTGCTTCGTTTCAATTCTCTAATTGATTGTTCTTTATCATAAAGATTTCAGAGTGTTTTTTTTTCTTGCGTCTTGCCTCGTTCTAATTCTCGGCTGGCTGAACGCTATTGATTTCTCACTTTCTGAATGCTTCGTCTCTTGCTTTCTTTCCTGTTTTCGGATTCATTGTTCTTCGGCATATTCTTTCCAAGGAATTCAGAGTGTTTCGTGTTTTTCTTTTGATTTGAGTTGGAGTTTTTCTGCTAGAATTTCAATTACTTTCCGGTAATTTGATTTTCATCTCTGTAAATCGGATCGACTAATCTGTGAATAATTTAGCTTCTGCGCCTTCGATTTGGAACTAGAATCCTTCAAAATCTCACCGCGAAGTTCACCACGCCATCAATTCACAAAGAAATTCCAACTCATCTCAATCAAAATCACTAAATCACCGCCATAATTTCCGTCTCCACCAATCTCGAGAGCCAAAACCAGATTTACTCAGATTCAATCAAAACCAGGAGTCGAAAAATGGCGATAAAGTGGAACGGAATCACAAAAGGCAATCTGGCAGAGGAACTGACGAAGGTAATCGGAGCAGTGGCGTGGTCGGAGTGGGGCGACGCAATGGAGGAATCGGAAGAATCTGTGGAAGTGAGGCGATTAACGGGAGCGATGACGAACGAGGTGTACCAAATCAAATGGAAGAATCCGAAAAGTAGCGGTGCTGAAGATCGGAAGGTGGTGGTGAGAGTGTACGGAGAAGGAGTGGAGGTGTTCTTCAACAGAGACGATGAGATCAGAACTTTTGAATGGTTGTCGAAGCTCGGCCATGGCCCTCGCCTTCTCGCTCAATTCTCACATGGAAGAGTCGAAGAATTCATCCACGCCAGGGTATGTTAAATTCTCTCCAATTTTTTTTTTCTTTTATTAAATATTTTATAATTGTTAAAAGAAAAATACTTCCTCTTACTAGTTAAGCAAAACCAATGTTAATGTTTTGTTTTTCACAAATTTATAAAAGAAATGCGAAAAAGAGAAAGAGAGAAGAGATGTTTGTTTTTTTAATAAATAAATAGTTGAGCAAGAGTATTTCTCTTGAAGGGTCAAAATATTATTATAATTTGTTGGTGACCAACAATTGTATTTTTAATTAGTAGAACAGAGAAATATTAAAATAGAGAGAAGAGAGTTTTTAACCTTTTCTTAAAATTATTTTGAACTTCGATTTATTTGCGTTATGTACTTTTAAAATGTTATTTCAGTACTTGTAACATCAATTTTGTTTCATAGCAGTAATTAAATTTTTAAAATGTTCGTTTTCGTCTATATAAATTTAAAAAGTGACAATTTTGATTCCTTTGTTTTATCTTTAATCTCACTTTTTCTATCACAATTTTAACATGATACTATACTCAATATATTTCTTAAAATGTAACAATTACTTTATAGTAAAGTGTTTTCATTATGGGTAAAATTTGTCCTAAAATTTTTAAAATTACTAGGACCATGAATATTTTGACAGTACAATAATTAAAATGAATCAAAGTTAGAAATATCGAACCCAAAATGAACATTTGTATGTAGACCAAAATAAACCTTTTTTTTTTTTTCTACAACAACCAGTTTAATAAATATGATATTTATTTTCTTTGTGAAGAAAAAGTTGGGGTGCATTTGATTGGTAATAAGAAAACAAATATTTGAAAACAAAGGATTCAATGATTTAGTTTAATCTAAAGTTATATTAATTAATTTATTAACATTTTTATGAATTTTGTATAATTATTATTTTACAAGTTTATATAATTTAGAATACATTATATTTTACCTGTTTTAATTTTAACAAACATAAAATGAATTTATAATATGAATTAAGATATTTATCAAAGTTTTTTTTATCATTTTTAATATAATTTTGCATCTTAAAAATTTTAAATTCTAAATCTGAAAATACTGAAAACATAAAAAATTCGTTTTCGGAATTTCTATGATTTGGATCATAAATCCGAAAATAGTTTTAAAAAACGAATCTCTCAATCTCTAAATATTTTGTGTCCTCGTATCTTCAACTTTGTTAAAAGTTACTTTAGCATGGATTATAAGTTTTTCCTTAATTGTTTAAAAAAATAGCAAATATATTTCCAATTTCAATTATTGACGAGTCATATGTAGTTCAAAACACTCATCTATATAGATACTAATTCTTTTTGCTTAAACACAATTAATAGTAATAATTAGACTTTTTTTTTCGAAGTTCAAAGACTAAAATAACATGTTTAAATTTAGCGACCTAAGTAAAATTAGCATGGAATTTCATGACTAAGATAAGATTCTAAATCTTTGGTTTTTAAAATTAGGTTATATTCCCTCAAGTAAGTATATAGGTAAATATTGAATATTTTACTCTTTTTAAGAAAAGATACTATGTCTTGATTGTTTGATATGATTTTAGAAGTACACCTATGAGAAAAGAAGCATTGTCTAATTATAGAATGAATGCACTAGAGTTACAAATAAACACAAGATTATAAACACTATGATTCACTCATCACTAAGTAAATTTCTCTATATTTTGTCACAAAAAAAAAAAGTTAATTTCTATACATATAATGAAAATCTCTAAAATATTCTATTTCTATCCGTCACGATTATCTTTCAATACAAACAAAGTTTTAGATATCAAAGTTGACAGAAATGACAGAATATTAATTTTATGAAAATATCTATGAAAATATTGATATCAACGTATATTTTGAAAGGTTTATAAAAATTAAAAATGTTATTATGAAATTTAATTAACAAGCCCCTTTTAGTTTTGTTAAATACATTAAAAATTATTATTATTATTATTATTATTATTATTATGTTCCTATCTTATTTTTTTTATAATATAATAAAAATGTTGATTTTTTAAATCAATATCAAATCTATAAACATAAGAAAATGTTGACATGTCAGGGTCAAGTTGGAGATAGAGAAGTGAAACATGAATTTTTTTTAGTACTAAACATGATTTTTATTAATTTTTTTTATTTTTGCAAAACAAATTGATACATGATTAGTTACTCAAATATTGATATGCTTTTGGTGGACCCACCATACTTTGGTCCATAAATAAATAAATAGGGATTTTTTTTTAGAAAAACCAAAATAAATAGGGAAATAACGCAAATAGAACCAAAAATAAATAAATAAATAAATTTGAGAAAAGTCCTACCAAAAGCCAAACCCCACATAATCTTTCCTTAGGGGTCAAAATTTAAGAGATACTTCTTTCTTATTTAAGATTTTGATTCTTGACCTCACATTTGTTATTTGTAATGTTATATTCTAATAAAAGAAGGAAAGGAAATATATAAATTTTTAATAAAAAAATGGAAAGAATTTTATTATTATTTATGTGAGTGTGAGTTTGAGACGACTTTTGAATGATAAAAGGTATTTGTAGCTCATTAAAAGTAATTGTTAAACAAATTCATAACAGAACACTAAAAAATACTTAATAGTACTTTTAGGAGAGAGAGATAATTAGTGTTTTTTAGAGTGACACTCAAAATTTGGCGACTCAATTTTGATTTAAAAATTTTAATTTTATCAAATAGATTTATAAACTTAAATAAGTTATCAAATTTATACCTCTTGGAAACTAAATTGGGAAAAAAAAATCTACCTAAGAATCAGTTAGTAAATCCCACAAAATGCAATTAACAAAATATTGAAGTCACAAATTGTCCAAACTCAATCATAACCCAAATATAATACACACACAAATAATATTGTCTAGCCATAAAATATTCATAACTAGCTAAATCTTTTTTTTTCAGAAAAAAAAAATTAATTATAGAGGGTACTTAATTTCTATTCAAGTTTAAGATTTAATTTGGTGAAATAAAAATTTAAATTAATAATCATGGTTGGTTAAATGTGCCAATTTTTATCTCAACTTAAAAGGTTTCATATTTTATATTAATATTTTACTTTTAAATTAAAATTTTCCAATACCACATCTGTTAAATTAAGTTTATTTTATGACATTTATTTTCTCATCAATATTTATTACAAATCCTAAATCTCACATATCTATTAATATTAATATTAAACTTTAATAACTATTTTTCTCCTTATATGTTAGCCTTTTGATTTTTAATTAATTTGTTTATTTTTCTGAATAAATCTCCAAACTAACATTTTGACCCAAAAAAAAAAAAAGATTTCTGCTGATGTAATAATAATAATCTTTTTTTTAATTTGCAGACATTATCAGCAACGGATCTTCGAGACTCAAAAATATCAGCACTTATAGCAAGTAAATTGAGAGAGTTTCACAATCTTGAAATGCCTGCTCCCAAAAATGTGGTCCTTTGGGATCGAATGAGGTATTTATTTGAACTTCACCTTTAAAAAATTTTTATATTAGTTTTTTTAATTATTTTAATTACTATCAAATATAAAAATATTATAAAAAAACAATCAAAATATATATATTTTTTAAAAAAGTTGTTTTTTATAGTTTGTTTAGGTTTTTTTAGTTTAATTGGTTAAATAACCTAAAATGTCGTGAGTTGAAATTTTCATTTCCATATTGTACTTAAAAGAAAAAGTCTGATTAGGTATTCAATAATATTTTTAAAAACAAACATAAATACAAGGCGGATAGAAACGTAGAAATTATTATAGGATGAATCTTAAATATCGGTAAACTGAGACACCATTTGTTAATGATTTCGTTTTTAAAAATTATGCTGGTCTAGTTAAATTTTTTTTAGCATGTTTTTCTATTTCTTAAAAACACATTTAAGAAGTTTTAAAAAACTACTTTGGTTTTAGTTTTCAAATTTTTGGTTTAGACTTTAAAAAAACCATAAAAAAATAGATAGCAAAACAAAGCAATACATAGGTGAAAATAATATTTATAAGCTTAATTATCAAAACTAAAAAATGATTATCAAACGGAGTCTAAATAATAAATTTATTGATATCAAGGTGAGTTTGTCATACCTTATAATTTAAAGACATATTTGGATTATGCTAAAATTAGTTTTGTCATCTTTTAAAATCACAAGTGTATTTGTACTAAAAAAAATGAAAAAGAAAATCACAAGTGTATTTTTTTTTATCTTTTTTAGTACAACAAATATGAGAATGAGATATTAGACTTCGACCTTTAGAGAAGGAAAAATGTATCTTAATCGTTCATCTAAATTCATGTTGACACTTGTATTTCGTTGTCAAATATTAGTACATGTTTGGAATTGATTTTAGTATTGTCGTCGCCAAAATCACTTCAATTTAAAACAGTTTTGTTACAAGAAAATGGAAAAAATTTATGCAGAAATCACTACCAAACATGCTCTTAAACTTTTTTTTTAATATTTTTTTAAAAAAAATTGTTTTAACAAAATACTTGTGTGTTTAGTTACATTGTTTTGTCAAATTACTATAAAGTGATTATTAGTTAATCACTTTTTTGGAGAATCAAATTTTAAAATTATTTAAAAAAAATGATTTAGGGTGTGTTTGGGAGTGGCCAACATCGCTTTTGCCATTGCTAAAATCACTTTTTTTAGTACAATATGTTGAGGCGGGAATTCGAACTCACAACTTCTTGGTTGGAGGTATATGTCAATTACCATTGAACTATGCTCGTTTTGACAATCACTTCTCTCTTTATTGATCGTGTTTGGCAAATTAGAAAATTAATTTTAGAAAAGCTGAAAATCACCTTAAATTGATTTTTAAGGTATTATTTGACGTTGATTTTATCACTCCTCCTACTATCACTCCCAAACACGCCTTTAAAACCAATTTGATTATTTCAAAATGATTTTTATTTGTTACCAAATACTCTGGATTAAAAAACCGACTTACGAAGAAACACATCTAAGATGCATAATAATTCTTTTTTTTTATATATATTAATATTTTGTAGATATTGGCTAAGTGAAGCCAAAAGATTAAGCTCACCAATTGATGTGGAAGAATTTTGGTTGGAGACATTGGAGGAGGAAATAAATATGCTTCAAAGAGAACTCTCCAAAGATTCTCAACTCATTGGCTTTTGTCACAATGACTTGCAATATGGCAACATTATGATGGATCAACACACATCATCAATAACTCTAATTGTAAGATATTTCTTTTTTATTTTTTCTTTTCTTTTTTGCCTTCACCATCACATTATAATTATCTTTTATTAAAATGTAGTTTAAGATGTAAACAAAAACATAGCTGAAATGGTTATCTAGCTCCCGAGGAGTAAAATTCAGATGTGTTTTTAAGAAATAAGAATATGTATAAAAAAAAAATTATGAGTAAACAAATATAATTTTTTAAATCTAAAAAATGGTATCGTAGTTTTTCTTTTTTTTTTTTTTTTGTTTTGACTAAATTATTTGTAGTAAGTTGAAACCAAGTAAATATTTTGTATAATTTTTTTGGTTAAGTATGAATTGAAAATTATTGTAAAATTTGGATTTTTGTTTTTTTTGTTTTTTGAATAATTTTTCAGGATTATGAGTATGCAAGTTACAATCCAATAGCTTATGACATTGCAAATCATTTCTGTGAAATGGCAGCAGATTACCATTCTGAGACTCCCCATATTTTGGACTACACTTCATACCCAGGTCTCACCCTCCCTCTTCTTCTTTTTTTGAATTTAACGACATCAAACCATCGAACTTTAGGATAGAAATACGTGTCTCATCCACTTAGTTATTCTCGAGTTGGTCACACCCCGTACCTTCTTTCTTTGCCTTCATTTTCAAATTTAATGGGCACAATTCTATTTTCTTTTTCTTATATTTGACATGATGAGTTAATTTTAATCCTAAATATTTTATTTTCCCTAAGGCTGTGGTTGGATATCATTTTTGTGAATACTACTTCTTTTGGTCATGTTTACTTTTCAGGTAGGTTGAGAATTTTGTAATTGAATATTGAACATGATTTCCTGGTAAATATTGTAAGAGCAAATTATATCCTACTTTCTTTGTGTTTTTTTTTTTTAAAAAAAAATACTTTCTTTGTGTTTTTGCTATGTTAATGAACAATAATTATTTCGTGACATGATACCATTAAATTCATCTTTCATAACGTCTTTTTCGCAACATCAAACTCATGTTTTATGACATTTTCTGACCGTCACGAAATATATTTTTTATGACGCTTTTAAAACGTCATGAAATCAGTTTCTTGTGACATTAAAAAAACGTCACGGAATCTATCTTTCTTTAAAAAACGTCACGAAATCATTTTAAAAATGTCACTAAAAAATGATTTCGAAACGTCATAAAAGCCGTCTTCCATGAAATTTTCTAGTTATGAATTTTGTTTTCATGACATTCTTTAACCGTCACGAAATCTAAATTTATCATGATATCTCTTTTGTCGTGACATTTTTTAAACGTCATGGAACCGATTTTTCGTGATGGGAGTATAGGTGACGACGTAAAAAACGTCACAAGCTAAATTTCTACAAGTGTTACTTCATGATAATTGACACCTATTGTTTGACTAAAAGGTCATAAGTTCAAATTTCCCACCACCACTCGTTCTACTCGAACATGATTTTGTGGCTAGATTTAGGTATTTCGTTAAGCGTTTTGGGGGGCTATTTTACGATCTATCGGTCAATTTTGGAACATTTTTCTAATCTAGCTTGGGGAGAAATTAATTTCATTACTTAATCATTCTTCCTATGGTTGTTTTGCAGATCTAAAGGAACGTAAACAATTTGTTCGTGCTTATCTTACTTCTACAGGTGAAATCTTCCTATGTTTCTGCATTTTTTTTGTCATCCCTATAATACTTGAAAATAACAATTTAGTCCAAAATAATAGAAAATCTAGCACAAATTAAAAAAAAAATTATAAATATAACACAATTTTATCTCACTCTATCACTTATATAGACTTCAGTGAGACACTGAAAGACGTCTATTCGCAAAATCCAATTCTTTTTGCTATATTCATATAGATATGACAAGAAAAGTACAATTTCCTTTTTAAAAACAAGGATCGGAGTTATTTATATATTTTTTAAGGGTTTTCTTTTTCGAATATTATTTCTATAAAATAATCTTCGGCAAAATAGGTTTGAGATAGATGTCTACTTAGTCCTGAAGTTTCAAAATAAACGCTTTTGGTCCCTGAGGTTTGAGATATGTGTCTAATTAGTCTTTAAAATGAACACTTTTGGTCCTTGAGGTTTAAAGTAGGTGTCAACTTGGTCCTGAAGTTTTAAAATGAACACTTCTAAATGGTGCATGATTTTTTTACTATTAATTAATTAATATTAAAATAACATTGCAAATTTCAATTAAATTGTTTATTGTAGTTGCTGATGTAGTAGATTATATTAATTAAATAATATACGTGTAGGTGATGGTACTTTTTCTCTCTCATCTATTCATCTGTTCCGCTCTCTTTCTCCTACCCTTTTCCGACGACCACCACGTCTTTGCTGCTGCCGTTCGCTATTTGGACATAATCATTTAATTACAATTTGCAATATCATTTTAATATTAATTAATTAACAGTAAAAAAATCAAGGGCCATTTAGAACTATTTCTCAAACTTCAGGGACCAAAAGTGTTTACTTTGAAACTTCATAGACCAATTAGACACGTATCTCAAACTTCAGGGACCAAAAATGTTCATTTTGAAACTTCAGGGACCAAATAGACATCTACCTCAAACCTCAGGGACAAAAAATGTATTTTGTCCAATAATCTTTTAAAACTATTTCCTAAATAGTTAAAAAAAAAAGATACGGAAATTACTGGGAAATATGTCTCTTTCATTTATTTTGTATCTTAATTTTAAAAACTAATTTAAAAAATGACTTAGGGCAGTTAAAATATATATATATATATATAACTTTTTGGTGTAAAAATTTGTTTTAGAATGATAATATTTGAAAAGTGTATATTTTTAAATGGTTTAATACTATTTTGGTCCCTTTATTTTTTACTTTTGTTCAGTTTAGACCCTCTACTTTTAACTTTTAAAAAATGATAAGTTTTTTTAAAGTACAGAGATCAAAATAGACGTTTTAAGACTCCCAATATATGAATAAAAATTAAACATTTCGAAAATATAGAGACTAAAATGAACCAAAGTCAAAATTTCAGAGATTAAAATAGTATTTAATTTTTTTTTAAGATAATAATTGTCTTGGATGTATGAAAACAGGGAGGAAAGCCAATGAAGAAGAAGTGGAGGAGGTAGTGGAGGAGGCTGAGAAATACACTTTACCCAACCATCTCTTTTGGGGCTTGTGGGGAATTATTTCAGTTAGTCATTTCAAATTTCTTCTCATTTGTGACTAATTATGAGACAAAGAATTCTTCATGTTTACTTATATCTTGTGAATTTGAATGTAGGGTCACATCAACAAGATTGACTTTGACTACTTTGAGTATGCAAGGCAGAGGTTCGATCAATACTGGCTAAGAAAGCCCGTGCTCTTGGTTTCTTCTATTGTTGATCACTGTCATCCAACGATGAATGATTCGTAAGACGAATAAAATTTCTTCTCTTTTTTCTCTCTATGTCCTAGTATTTTCTTTACCTACCACTTTGTATAAAAAATAAGTCAACACTTTTAGGTTGACTTTTGTTGTGTAGTTCGATTTTATAAAATGTTTGGTGGAACAATACGGATATATTATTTCTAGATTTTGAATGAAATTTGATGTCTTTTTGGATGGAGGGTCA GTTTATTTTTAATTTGTTTTCAGTACCGTAAATATAAGTTTAGAAGTGAGAAAATACGCTGCGAGGATAGAGTCAAGTTTTCAGCATGACTCGAGACTTTTATCAAAATATCATGTGGACTATTAATCCGTCGGTTTGAAATTCCCGTCACTTTCTCTTCCAGTTCAAGTCTGCATTTAAAAGCAGAGAAAACTTTCAAATGTTCTTCACAATCGATCTCAATTCAAACCTCAGTTCGTACAATTCTCCGTTGATGAACGCGATTGATTTCTTCCGCTGATTTGTAATCCTTCAAAATCTCACCGCGAAGTTCACCACGCCATCAATTCACAAAGAAATTCCAACTCATCTCAATCAAAATCACTAAATCACCGCCATAATTTCCGTCTCCACCAATCTCGAGAGCCAAAACCAGATTTACTCAGATTCAATCAAAACCAGGAGTCGAAAAATGGCGATAAAGTGGAACGGAATCACAAAAGGCAATCTGGCAGAGGAACTGACGAAGGTAATCGGAGCAGTGGCGTGGTCGGAGTGGGGCGACGCAATGGAGGAATCGGAAGAATCTGTGGAAGTGAGGCGATTAACGGGAGCGATGACGAACGAGGTGTACCAAATCAAATGGAAGAATCCGAAAAGTAGCGGTGCTGAAGATCGGAAGGTGGTGGTGAGAGTGTACGGAGAAGGAGTGGAGGTGTTCTTCAACAGAGACGATGAGATCAGAACTTTTGAATGGTTGTCGAAGCTCGGCCATGGCCCTCGCCTTCTCGCTCAATTCTCACATGGAAGAGTCGAAGAATTCATCCACGCCAGGACATTATCAGCAACGGATCTTCGAGACTCAAAAATATCAGCACTTATAGCAAGTAAATTGAGAGAGTTTCACAATCTTGAAATGCCTGCTCCCAAAAATGTGGTCCTTTGGGATCGAATGAGATATTGGCTAAGTGAAGCCAAAAGATTAAGCTCACCAATTGATGTGGAAGAATTTTGGTTGGAGACATTGGAGGAGGAAATAAATATGCTTCAAAGAGAACTCTCCAAAGATTCTCAACTCATTGGCTTTTGTCACAATGACTTGCAATATGGCAACATTATGATGGATCAACACACATCATCAATAACTCTAATTGATTATGAGTATGCAAGTTACAATCCAATAGCTTATGACATTGCAAATCATTTCTGTGAAATGGCAGCAGATTACCATTCTGAGACTCCCCATATTTTGGACTACACTTCATACCCAGATCTAAAGGAACGTAAACAATTTGTTCGTGCTTATCTTACTTCTACAGGGAGGAAAGCCAATGAAGAAGAAGTGGAGGAGGTAGTGGAGGAGGCTGAGAAATACACTTTACCCAACCATCTCTTTTGGGGCTTGTGGGGAATTATTTCAGGTCACATCAACAAGATTGACTTTGACTACTTTGAGTATGCAAGGCAGAGGTTCGATCAATACTGGCTAAGAAAGCCCGTGCTCTTGGTTTCTTCTATTGTTGATCACTGTCATCCAACGATGAATGATTCGTAAGACGAATAAAATTTCTTCTCTTTTTTCTCTCTATGTCCTAGTATTTTCTTTACCTACCACTTTGTATAAAAAATAAGTCAACACTTTTAGGTTGACTTTTGTTGTGTAGTTCGATTTTATAAAATGTTTGGTGGAACAATACGGATATATTATTTCTAGATTTTGAATGAAATTTGATGTCTTTTTGGATGGAGGGTCA ATGGCGATAAAGTGGAACGGAATCACAAAAGGCAATCTGGCAGAGGAACTGACGAAGGTAATCGGAGCAGTGGCGTGGTCGGAGTGGGGCGACGCAATGGAGGAATCGGAAGAATCTGTGGAAGTGAGGCGATTAACGGGAGCGATGACGAACGAGGTGTACCAAATCAAATGGAAGAATCCGAAAAGTAGCGGTGCTGAAGATCGGAAGGTGGTGGTGAGAGTGTACGGAGAAGGAGTGGAGGTGTTCTTCAACAGAGACGATGAGATCAGAACTTTTGAATGGTTGTCGAAGCTCGGCCATGGCCCTCGCCTTCTCGCTCAATTCTCACATGGAAGAGTCGAAGAATTCATCCACGCCAGGACATTATCAGCAACGGATCTTCGAGACTCAAAAATATCAGCACTTATAGCAAGTAAATTGAGAGAGTTTCACAATCTTGAAATGCCTGCTCCCAAAAATGTGGTCCTTTGGGATCGAATGAGATATTGGCTAAGTGAAGCCAAAAGATTAAGCTCACCAATTGATGTGGAAGAATTTTGGTTGGAGACATTGGAGGAGGAAATAAATATGCTTCAAAGAGAACTCTCCAAAGATTCTCAACTCATTGGCTTTTGTCACAATGACTTGCAATATGGCAACATTATGATGGATCAACACACATCATCAATAACTCTAATTGATTATGAGTATGCAAGTTACAATCCAATAGCTTATGACATTGCAAATCATTTCTGTGAAATGGCAGCAGATTACCATTCTGAGACTCCCCATATTTTGGACTACACTTCATACCCAGATCTAAAGGAACGTAAACAATTTGTTCGTGCTTATCTTACTTCTACAGGGAGGAAAGCCAATGAAGAAGAAGTGGAGGAGGTAGTGGAGGAGGCTGAGAAATACACTTTACCCAACCATCTCTTTTGGGGCTTGTGGGGAATTATTTCAGGTCACATCAACAAGATTGACTTTGACTACTTTGAGTATGCAAGGCAGAGGTTCGATCAATACTGGCTAAGAAAGCCCGTGCTCTTGGTTTCTTCTATTGTTGATCACTGTCATCCAACGATGAATGATTCGTAA MAIKWNGITKGNLAEELTKVIGAVAWSEWGDAMEESEESVEVRRLTGAMTNEVYQIKWKNPKSSGAEDRKVVVRVYGEGVEVFFNRDDEIRTFEWLSKLGHGPRLLAQFSHGRVEEFIHARTLSATDLRDSKISALIASKLREFHNLEMPAPKNVVLWDRMRYWLSEAKRLSSPIDVEEFWLETLEEEINMLQRELSKDSQLIGFCHNDLQYGNIMMDQHTSSITLIDYEYASYNPIAYDIANHFCEMAADYHSETPHILDYTSYPDLKERKQFVRAYLTSTGRKANEEEVEEVVEEAEKYTLPNHLFWGLWGIISGHINKIDFDYFEYARQRFDQYWLRKPVLLVSSIVDHCHPTMNDS Homology
BLAST of MC11g1213 vs. ExPASy Swiss-Prot
Match: Q9M9H6 (Probable choline kinase 1 OS=Arabidopsis thaliana OX=3702 GN=CK1 PE=2 SV=1) HSP 1 Score: 448.0 bits (1151), Expect = 1.0e-124 Identity = 210/332 (63.25%), Postives = 273/332 (82.23%), Query Frame = 0
BLAST of MC11g1213 vs. ExPASy Swiss-Prot
Match: Q9SZ92 (Probable choline kinase 3 OS=Arabidopsis thaliana OX=3702 GN=At4g09760 PE=2 SV=1) HSP 1 Score: 448.0 bits (1151), Expect = 1.0e-124 Identity = 211/345 (61.16%), Postives = 280/345 (81.16%), Query Frame = 0
BLAST of MC11g1213 vs. ExPASy Swiss-Prot
Match: Q8L518 (Probable choline kinase 2 OS=Arabidopsis thaliana OX=3702 GN=At1g74320 PE=2 SV=1) HSP 1 Score: 431.0 bits (1107), Expect = 1.3e-119 Identity = 198/336 (58.93%), Postives = 266/336 (79.17%), Query Frame = 0
BLAST of MC11g1213 vs. ExPASy Swiss-Prot
Match: O81024 (Probable ethanolamine kinase OS=Arabidopsis thaliana OX=3702 GN=EMB1187 PE=2 SV=1) HSP 1 Score: 186.4 bits (472), Expect = 5.6e-46 Identity = 114/333 (34.23%), Postives = 183/333 (54.95%), Query Frame = 0
BLAST of MC11g1213 vs. ExPASy Swiss-Prot
Match: Q9Y259 (Choline/ethanolamine kinase OS=Homo sapiens OX=9606 GN=CHKB PE=1 SV=3) HSP 1 Score: 177.2 bits (448), Expect = 3.4e-43 Identity = 108/320 (33.75%), Postives = 180/320 (56.25%), Query Frame = 0
BLAST of MC11g1213 vs. NCBI nr
Match: XP_022143626.1 (probable choline kinase 1 isoform X1 [Momordica charantia] >XP_022143627.1 probable choline kinase 1 isoform X1 [Momordica charantia]) HSP 1 Score: 736 bits (1899), Expect = 5.08e-268 Identity = 360/360 (100.00%), Postives = 360/360 (100.00%), Query Frame = 0
BLAST of MC11g1213 vs. NCBI nr
Match: XP_022926183.1 (probable choline kinase 1 isoform X2 [Cucurbita moschata]) HSP 1 Score: 571 bits (1471), Expect = 8.63e-203 Identity = 282/351 (80.34%), Postives = 313/351 (89.17%), Query Frame = 0
BLAST of MC11g1213 vs. NCBI nr
Match: KAG6607632.1 (putative choline kinase 1, partial [Cucurbita argyrosperma subsp. sororia]) HSP 1 Score: 568 bits (1464), Expect = 1.00e-201 Identity = 282/351 (80.34%), Postives = 312/351 (88.89%), Query Frame = 0
BLAST of MC11g1213 vs. NCBI nr
Match: XP_022981485.1 (probable choline kinase 1 isoform X2 [Cucurbita maxima]) HSP 1 Score: 567 bits (1462), Expect = 1.04e-200 Identity = 281/351 (80.06%), Postives = 310/351 (88.32%), Query Frame = 0
BLAST of MC11g1213 vs. NCBI nr
Match: XP_023523321.1 (probable choline kinase 1 isoform X2 [Cucurbita pepo subsp. pepo]) HSP 1 Score: 566 bits (1458), Expect = 5.07e-200 Identity = 279/351 (79.49%), Postives = 312/351 (88.89%), Query Frame = 0
BLAST of MC11g1213 vs. ExPASy TrEMBL
Match: A0A6J1CQU6 (probable choline kinase 1 isoform X1 OS=Momordica charantia OX=3673 GN=LOC111013484 PE=4 SV=1) HSP 1 Score: 736 bits (1899), Expect = 2.46e-268 Identity = 360/360 (100.00%), Postives = 360/360 (100.00%), Query Frame = 0
BLAST of MC11g1213 vs. ExPASy TrEMBL
Match: A0A6J1EHB4 (probable choline kinase 1 isoform X2 OS=Cucurbita moschata OX=3662 GN=LOC111433374 PE=4 SV=1) HSP 1 Score: 571 bits (1471), Expect = 4.18e-203 Identity = 282/351 (80.34%), Postives = 313/351 (89.17%), Query Frame = 0
BLAST of MC11g1213 vs. ExPASy TrEMBL
Match: A0A6J1IZL8 (probable choline kinase 1 isoform X2 OS=Cucurbita maxima OX=3661 GN=LOC111480591 PE=4 SV=1) HSP 1 Score: 567 bits (1462), Expect = 5.04e-201 Identity = 281/351 (80.06%), Postives = 310/351 (88.32%), Query Frame = 0
BLAST of MC11g1213 vs. ExPASy TrEMBL
Match: A0A6J1EDT7 (probable choline kinase 1 isoform X1 OS=Cucurbita moschata OX=3662 GN=LOC111433374 PE=4 SV=1) HSP 1 Score: 564 bits (1453), Expect = 2.97e-200 Identity = 282/358 (78.77%), Postives = 313/358 (87.43%), Query Frame = 0
BLAST of MC11g1213 vs. ExPASy TrEMBL
Match: A0A6J1IWP2 (probable choline kinase 1 isoform X3 OS=Cucurbita maxima OX=3661 GN=LOC111480591 PE=4 SV=1) HSP 1 Score: 560 bits (1444), Expect = 6.96e-199 Identity = 281/358 (78.49%), Postives = 310/358 (86.59%), Query Frame = 0
BLAST of MC11g1213 vs. TAIR 10
Match: AT1G71697.1 (choline kinase 1 ) HSP 1 Score: 448.0 bits (1151), Expect = 7.3e-126 Identity = 210/332 (63.25%), Postives = 273/332 (82.23%), Query Frame = 0
BLAST of MC11g1213 vs. TAIR 10
Match: AT4G09760.2 (Protein kinase superfamily protein ) HSP 1 Score: 448.0 bits (1151), Expect = 7.3e-126 Identity = 211/345 (61.16%), Postives = 280/345 (81.16%), Query Frame = 0
BLAST of MC11g1213 vs. TAIR 10
Match: AT4G09760.1 (Protein kinase superfamily protein ) HSP 1 Score: 448.0 bits (1151), Expect = 7.3e-126 Identity = 211/345 (61.16%), Postives = 280/345 (81.16%), Query Frame = 0
BLAST of MC11g1213 vs. TAIR 10
Match: AT1G74320.1 (Protein kinase superfamily protein ) HSP 1 Score: 431.0 bits (1107), Expect = 9.2e-121 Identity = 198/336 (58.93%), Postives = 266/336 (79.17%), Query Frame = 0
BLAST of MC11g1213 vs. TAIR 10
Match: AT4G09760.3 (Protein kinase superfamily protein ) HSP 1 Score: 253.1 bits (645), Expect = 3.5e-67 Identity = 124/227 (54.63%), Postives = 175/227 (77.09%), Query Frame = 0
The following BLAST results are available for this feature:
InterPro
Analysis Name: InterPro Annotations of Bitter gourd (Dali-11) v1
Date Performed: 2021-10-25 Position : 0 Zoom : x 1
Relationships
The following mRNA feature(s) are a part of this gene:
GO Annotation
GO Assignments
This gene is annotated with the following GO terms.
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